A wireless transmission controller device is proposed. The device includes: a signal transmitter configured to receive an image signal input from a USB Type-C or a DP port, which are connected to an image storage device, convert the received image signal into a form of a high-speed serial signal, and wirelessly transmits the converted image signal to a signal receiver by ultra-high frequency communication; and the signal receiver configured to receive a high-speed serial signal from the signal transmitter, undergo a conversion process, and transmit the image signal to an image display device such as a monitor or a smartphone connected to the DP port, wherein, through making the USB Type-C or the Display Port to be wireless, high-speed wireless transmission in real time for a video is possible without a wired cable connection.

An information handling system executing an intelligent collaboration contextual session management system may comprise a display screen, a speaker, a video camera, a microphone, a sensor hub detecting participation of a user in a videoconference session, and a processor to execute a multimedia multi-user collaboration application to join the videoconference session with a remotely located computing device. The processor may also input a detected user participation level into a trained neural network and output an optimized media capture instruction to the video camera predicted to adjust performance of the multimedia multi-user collaboration application to meet a preset performance benchmark value, during the videoconference session. The video camera may be configured to capture a video sample based on the optimized media capture instructions, in response to the detected user participation level, and a network interface device may be configured to transmit the captured video sample to the remotely located computing device.

An information handling system executing an intelligent collaboration contextual session management system may comprise a display screen, a speaker, a video camera, a microphone, a sensor hub detecting participation of a user in a videoconference session, and a processor to execute a multimedia multi-user collaboration application to join the videoconference session with a remotely located computing device. The processor may also input a detected user participation level into a trained neural network and output an optimized media capture instruction to the video camera predicted to adjust performance of the multimedia multi-user collaboration application to meet a preset performance benchmark value, during the videoconference session. The video camera may be configured to capture a video sample based on the optimized media capture instructions, in response to the detected user participation level, and a network interface device may be configured to transmit the captured video sample to the remotely located computing device.

To prevent the transmission of excluded data, a short time-delay between capture and transmission of a video signal is exploited to process the buffered frames to recognize disallowed objects and control the video camera to prevent transmission of any frame including the disallowed object in the video signal. The time-delay can be implemented in real or near real time with, for example, a delay line or memory chip that serve to buffer the sequence of image frames.

To prevent the transmission of excluded data, a short time-delay between capture and transmission of a video signal is exploited to process the buffered frames to recognize disallowed objects and control the video camera to prevent transmission of any frame including the disallowed object in the video signal. The time-delay can be implemented in real or near real time with, for example, a delay line or memory chip that serve to buffer the sequence of image frames.

A communication apparatus comprises: a first communication circuit and a second communication circuit configured to transfer data to an external apparatus using a different communication method; and a memory storing instructions which, when the instructions are executed by one or more processors, cause the communication apparatus to function as a control unit to manage a transfer state of each data to be transferred and to control the transfer of data to be transferred using the first communication circuit and the second communication circuit. The control unit controls data transfer using the second communication circuit according to whether the data transfer using the first communication circuit is successful or not and the data transfer using the second communication circuit is enabled or not.

A communication apparatus comprises: a first communication circuit and a second communication circuit configured to transfer data to an external apparatus using a different communication method; and a memory storing instructions which, when the instructions are executed by one or more processors, cause the communication apparatus to function as a control unit to manage a transfer state of each data to be transferred and to control the transfer of data to be transferred using the first communication circuit and the second communication circuit. The control unit controls data transfer using the second communication circuit according to whether the data transfer using the first communication circuit is successful or not and the data transfer using the second communication circuit is enabled or not.

The present disclosure provides a method and device of transmitting a video signal, a method and device of receiving a video signal, and a display device. The method of transmitting the video signal includes: acquiring the video signal, wherein the video signal contains a plurality of frame data; embedding configuration data for at least one frame data of the video signal in a previous invalid interval of the at least one frame data; and transmitting the video signal embedded with the configuration data.

The present disclosure provides a method and device of transmitting a video signal, a method and device of receiving a video signal, and a display device. The method of transmitting the video signal includes: acquiring the video signal, wherein the video signal contains a plurality of frame data; embedding configuration data for at least one frame data of the video signal in a previous invalid interval of the at least one frame data; and transmitting the video signal embedded with the configuration data.

Disclosed is an image processing method and apparatus. The image processing method includes obtaining visual information related to an object in an image, generating valid data from the image based on the visual information, and transmitting the valid data.